INDICATORS OF FORMALIZED DESCRIPTION QUALITY AND ANALYSIS OF PRODUCTION TECHNOLOGIES

Authors

  • Dmitry Andreev Institute of Engineering Sciences, Pskov State University (RU)
  • Alexander Dementiev Institute of Engineering Sciences, Pskov State University (RU)
  • Sergey Lyokhin Institute of Engineering Sciences, Pskov State University (RU)
  • Sergey Verteshev Institute of Engineering Sciences, Pskov State University (RU)
  • Olga Timofeeva Institute of Engineering Sciences, Pskov State University (RU)

DOI:

https://doi.org/10.17770/etr2021vol2.6622

Keywords:

coefficient, concept, decomposition structure, technology

Abstract

This paper discusses conceptual basis for assessment and analysis of model quality relating to formalized description of technologies. The authors give indicators used to assess formalized and textual descriptions of technologies. They raise some questions concerning the analysis of technologies that enable to make a list of indicators. The paper examines decomposition structures of specific technologies and provides the calculations of introduced coefficients.

 

Downloads

Download data is not yet available.

References

B. V. Sokolov and R. M. Yusupov, “Conceptual foundations for evaluating and analyzing the quality of models and polymodel complexes,” Izvestiya RAS. Theory and Control Systems, No. 6, pp. 5-16, 2004. (in Russian)

D. Andreev, S. Lyokhin, L. Motaylenko, and S. Verteshev, “Models and algorithms for constructing a formalized description of production technologies,” in Environment. Technology. Resources: Proceedings of the 12th International Scientific and Practical Conference on Information Technologies, Rezekne, 2019, vol. II, pp. 21-27.

D. Andreev, S. Lyokhin, V. Nikolaev, and O. Poletaeva, “Development of software for design ontological representations of production technologies,” in Environment. Technology. Resources: Proceedings of the 12th International Scientific and Practical Conference on Information Technologies, Rezekne, 2019, vol. II, pp. 28-33.

V. I. Pozhbelko, “Method of topological structural analysis and new criteria for identification of complex multi-contour mechanical systems,” Theory of Mechanisms and Machines, Vol. 12, No. 2 (24), pp. 50-65, 2014. (in Russian)

Programming and operating systems, “Structural and topological characteristics of systems,” 2015. [Online]. Available: http://vscode.ru/articles/struct-topolog-charact-system.html [Accessed: Feb. 25, 2021]. (in Russian)

D. A. Andreev and M. V. Voronov, “Features of ontological engineering of technological knowledge,” in proceedings of the XVI All-Russian joint conference on the Internet and Modern Society, Saint-Petersburg, 2013, pp. 74-76. (in Russian)

D. A. Andreev and M. V. Voronov, “On the specifics of the ontological representation of material production technologies,” in abstracts of the IX international conference on mathematical modeling in education, science and production, Tiraspol, 2015, p. 5-6. (in Russian)

T. A. Gavrilova, V. A. Gorovoy, and E. S. Bolotnikova, “Evaluation of the cognitive ergonomics of ontology based on graph analysis,” Artificial Intelligence and Decision Making, No. 3, pp. 33-41, 2009. (in Russian)

O. F. Andrich and L. A. Makushkina, “Research of methods for assessing the quality of ready-made ontological models,” Modern Scientific Research and Innovation, No. 3, 2014. [Online serial]. Available: http://web.snauka.ru/issues/2014/03/31194 [Accessed: Feb. 25, 2021]. (in Russian)

L. A. Makushkina and A. A. Rybanov, “Evaluation of the quality of structuring educational material based on metrics of ontological models,” Izvestiya of Volgograd State Technical University, Vol. 11, No. 14 (141), pp. 86-89, 2014. (in Russian)

D. A. Andreev, “Model of actions’ concepts in ontological representations of technologies,” in proceedings of the XXVII international scientific conference on mathematical methods in engineering and technologies, Tambov, 2014, vol. 3, pp. 85-87. (in Russian)

S. Verteshev, V. Konevtsov, “Processes control with fuzzy initial information in a complex of software design of digital control systems,” in Environment. Technology. Resources: Proceedings of the 11th International Scientific and Practical Conference on Engineering sciences and production technologies, Rezekne, 2017, vol. III, pp. 332-336.

S. Verteshev, V. Konevtsov, “Direct digital control in a complex of software design of digital control systems,” in Environment. Technology. Resources: Proceedings of the 11th International Scientific and Practical Conference on Engineering sciences and production technologies, Rezekne, 2017, vol. III, pp. 337-342.

I. Antonov, I. Bruttan, D. Andreev, and L. Motaylenko, “The method of automated building of domain ontology,” in Environment. Technology. Resources: Proceedings of the 12th International Scientific and Practical Conference on Information Technologies, Rezekne, 2019, vol. II, pp. 34-37.

V. Konevtsov, I. Poletaev, S. Verteshev, “Discrete automatic schemes for ASC TP,” in Environment. Technology. Resources: Proceedings of the 10th International Scientific and Practical Conference on Engineering sciences and production technologies, Rezekne, 2015, vol. I, pp. 67-71.

L. F. Pershina and S. V. Petrova, Technology of sewing production. Moscow: KDU, 2007. (in Russian)

A. S. Statsenko, Technology of construction production. Russian Rostov-on-Don: Phoenix, 2006. (in Russian)

B. M. Bazrov, Fundamentals of mechanical engineering technology. Moscow: Mashinostroenie, 2005. (in Russian)

S. K. Sysoev, A. S. Sysoev, and V. A. Levko, Technology of mechanical engineering. Design of technological processes. Saint Petersburg: Lan, 2011. (in Russian)

Construction of a brick 5-storey 70-apartment residential building of series 114-87-1/1, Vpttransstroy (All-Union Design and Technology Institute of Transport Construction), 1980. (in Russian)

P. P. Koketkin, T. N. Kochegura, and V. I. Baryshnikova, Industrial technology of clothing. Moscow: Book on Demand, 2012. (in Russian)

A. T. Trukhanova, Production of men's outerwear for individual orders. Moscow: Legprombytizdat (Light industry and consumer services), 1990. (in Russian)

State Standard (GOST) 25295-2003. Clothing upper coat and suit assortment. General Technical Conditions, Standartinform, 2006. (in Russian)

N. M. Volkova and S. V. Petrova, Production of men's and children's costumes. Moscow: Legprombytizdat (Light industry and consumer services), 1985. (in Russian)

Downloads

Published

2021-06-17

How to Cite

[1]
D. Andreev, A. Dementiev, S. Lyokhin, S. Verteshev, and O. Timofeeva, “INDICATORS OF FORMALIZED DESCRIPTION QUALITY AND ANALYSIS OF PRODUCTION TECHNOLOGIES”, ETR, vol. 2, pp. 21–27, Jun. 2021, doi: 10.17770/etr2021vol2.6622.